| Customization: | Available |
|---|---|
| Warranty: | 1 Year |
| Standard: | ISO6942,En 366 |
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ISO6942 Thermal Protection Performance Test Equipment
Introduction:
This RPP tester is used for performance evaluation against heat and flame-protective clothing when faced with short flame thermal motion. Imposed a certain calorie density (80KW/m ² ± 5%) of heat, under the specimens that were composed of protective clothing. When measuring the growth rate of heat over time (time: seconds, temperature: ºC) by heat meter was installed on the test sample, to determine the insulation properties of simple materials.
It is applied to measure the fabric of single-layer or multi-layer under high-temperature thermal radiation properties, and other fire-retardant insulation of plates.
Standards:
EN 366,
ISO 6942
Main Features:
1. The RPP tester consists of a radiation device, a specimen clamping device, and a control system.
2. Its stainless steel frame structure gives it a sleek appearance, high corrosion resistance, and makes it easy to clean.
3. Specimen size: 230mm x 80mm;
4. The Radiation source is made up of 5 infrared quartz lamps, power 500W, and provide at least 80kW/m2 radiant heat;
5. Standard copper heat flow meter, heat measuring range 0~100kw/m2;
6. A cooling device (cooling water inlet);
7. Intelligent water circulation control system;
8. The function of the water temperature alarm is to ensure safe operation and stable testing.
9. A computer control system has been developed to enable more intelligent testing and easier operation.
10. Timer accuracy is 1s;
11. Constantan thermocouple: measurement Accuracy 0.1 ºC, meets the design requirements of ISO 6942
12. Metal protection shutters, with water cooling device;
13. Computer records and displays real-time continuous temperature curve;
14. Automatic operation mode, test time can be set freely.
15. According to ISO 6942-2002 (EN366) standards, there are two methods to test thermal protection;
16. The first method (A method) is a specimen to withstand a certain amount of heat radiation, recording changes in appearance to reproduce the material the inclement conditions.
17. The second method (B method) is a calorimeter inside a specimen back, when heat conduction from samples back, recording temperature trends over time, to determine the level of thermal radiation transfer.
Specifications:
|
Model |
GD-6942 |
|
Thermocouple |
Copper, Constantan (T); diameter: 0.25mm |
|
Calorimeter |
Copper Specifications: Thickness 1.6 mm; purity: 99.95% |
|
Press Release Plate |
Specification:149×149×6t mm |
|
Heat flux density |
10kW/m2 ~ 80 kW/m2 adjustable; |
|
Thermal radiation temperature control |
Room temperature ~ 1200ºC ± 5ºC (display accuracy of 1ºC; having PID smart regulation Controller |
|
Thermal radiation temperature sensor |
Thermocouple (0 ~ 100ºC) |
|
Circulating pump |
HQB-3900/100W/220V/50Hz |
|
Operating platform |
Windows operating systems; |
|
Flame shield plate |
Operation: manual/automatic front pulled way; Material: heat-resistant inorganic-based thermal materials |
|
Power |
AC 220V 50Hz |
|
Outline dimension |
W1510×D650×H1220mm |
|
Weight |
About 200kg |
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